KR100581288B1 - A switched mode power supply for stabilizing output power - Google Patents

Abstract

The present invention is a flyback converter type power supply (SMPS) for stabilizing the output power in the PCU of the vehicle 42V system, the configuration is

An input terminal to which an input voltage Vin is applied;

At least one transformer connected to the input terminal and having a primary side having a predetermined number of turns and a secondary side having a predetermined number of turns;

A switching element connected to the other end of the primary side to which the input terminal of each transformer is connected, for switching control of an input voltage to each transformer;

An output stage for outputting a voltage through each transformer according to an operation state of each switching element; And

It is connected between the output terminal and the switching element of each transformer, characterized in that consisting of PWM control means for feedback control of the output power through each transformer.

SMPS, Flyback, Converter, Transformer, PWM

Description

Power supply for stabilizing output power {A switched mode power supply for stabilizing output power}

1 is a simplified circuit diagram of a power supply device for supplying control power in a PCU of a 42V system of a conventional vehicle.

2 is a simplified exemplary circuit diagram of a power supply for supplying control power in a PCU of a 42V system according to the present invention;

The present invention relates to a power supply for stabilizing the output power, and more particularly to a power supply for supplying control power (SMPS) for stabilizing the output power in the PCU of the vehicle 42V system.

Switched Mode Power Supply (SMPS) for supplying control power in a PCU (Power Control Unit) of a conventional 42V system is a battery (+ 7V to + 20V) as an SMPS input power for supplying control power in a PCU, as shown in FIG. The feedback control power supply uses + 12V.In order to ensure stable output voltage even if the input voltage is variable in consideration of the variable input characteristics of the battery, it is isolated buck-boost with input / output isolation and step-up and step-down functions. A flyback type SMPS, a buck-boost converter, is adopted.

The SMPS generates four output voltages by controlling the output voltage feedback of one PWM IC and a multi-winding method in one transformer. However, in the multi-winding system, since one transformer generates the output according to the turns ratio, when an overload occurs momentarily in one of the four output powers, the overload current of one output power causes the flux of the transformer T1 to decrease. There is a problem that the load of the rest of the power supplies is increased momentarily, resulting in the destruction of devices using this output power supply. In other words, since the output current limit cannot be guaranteed, a momentary overload at one of the four power supplies may adversely affect the devices using the remaining power supplies (eg device destruction).

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and an object of the present invention is to load-control at one power source by individually controlling the PWM feedback control of each output power source to stabilize the output power in the PCU of the vehicle's 42V system. It is possible to provide a power supply for stabilizing the output power supply so as not to affect the other power supply, so that individual safety of the output power can be given.

In order to achieve the above object, a power supply according to the present invention

An input terminal to which an input voltage Vin is applied;

At least one transformer connected to the input terminal and having a primary side having a predetermined number of turns and a secondary side having a predetermined number of turns;

A switching element connected to the other end of the primary side to which the input terminal of each transformer is connected, for switching control of an input voltage to each transformer;

An output stage for outputting a voltage through each transformer according to an operation state of each switching element; And

It is connected between the output terminal and the switching element of each transformer, characterized in that consisting of PWM control means for feedback control of the output power through each transformer.

The present invention is a power supply device for stabilizing the output power in the PCU of the 42V system of the vehicle for each output power to the PWM feedback control, so as to give individual safety for each output power.

Hereinafter, with reference to the drawings will be described a preferred embodiment according to the present invention.

Example

A power supply having four output powers will be described as an example of a control power supply power supply (SMPS) for stabilizing output power in a PCU of a vehicle 42V system according to the present embodiment. This is the same as the simplified circuit diagram of FIG.

As shown in Figure 2, the power supply device according to the present embodiment

An input terminal to which an input voltage Vin is applied;

One or more transformers T1 connected to the input terminal and having a primary side (N11, N21, N31, N41) having a predetermined number of turns and a secondary side (N12, N22, N32, N42) having a predetermined number of turns. , T2, T3, T4);

A switching element (not illustrated, MOSFET) connected to the other end of the primary side to which the input terminals of the transformers T1, T2, T3, and T4 are connected, for switching the input voltage to each transformer;

Output terminals (V01, V02, V03, V04) for outputting a voltage through each of the transformers (T1, T2, T3, T4) according to the operation state of each switching element (MOSFET); And

PWM control means connected to the output terminals (V01, V02, V03, V04) and the switching element (MOSFET) of each transformer, for feedback control of the output power through each transformer (T1, T2, T3, T4) (not shown) And PWM IC), which individually feedback control each output power (V01, V02, V03, V04) through each transformer (T1, T2, T3, T4) to give individual safety for each output power. Characterized in that.

In the above configuration, in the present embodiment, diodes D1, D2, D3, which are connected to the secondary side (N12, N22, N32, N42) of the respective transformers and are electrically connected or cut off depending on the operating state of the switching element MOSFET. D4) and capacitors C1, C2, which are connected in parallel with the diodes D1, D2, D3, and D4 and serve as output filters in outputting energy accumulated by the magnetizing inductance L of each transformer. C3, C4) is further provided.

As described in the above configuration, in the power supply device SMPS for stabilizing the output power according to the present embodiment, each output power is individually fed into feedback control, that is, four output powers V01, V02, V03, and V04 are controlled. Because of individually feedback control (PWM IC), load fluctuations in one supply cannot affect the other. Therefore, it is possible to give an individual output stability for each output power.

On the other hand, the configuration as described above, there is no need for a regulator (see Fig. 1) installed on the secondary side of the transformer for stabilizing the output power in the conventional power supply device, there is a component saving effect. In addition, in the conventional power supply, only one switching element (MOSFET), transformer T1, and feedback control element (PWM IC) are used for each of the four output power sources. However, in the present embodiment, the heat generation in the switching element and the transformer can be distributed to the entire PCB by using the smaller switching element (MOSFET) and the transformers T1, T2, T3, and T4 than in the conventional power supply device.

Hereinafter, the operation of the power supply apparatus according to the present embodiment will be described with reference to FIG. 2.

As shown in FIG. 2, the power supply apparatus according to the present embodiment is characterized in that the output power of each transformer T1, T2, T3, and T4 is individually feedback controlled through a PWM control means (PWM IC).

In other words, the power applied to each transformer (T1, T2, T3, T4) is connected to the other end of the primary side connected to the input terminal of each transformer switching device (not shown, MOSFET) for switching control the input voltage to each transformer The operation state on the secondary side changes according to the operation state of. In other words, when the switching element is turned on, the secondary side is turned off. When the switching element is turned off, current is conducted by the counter electromotive force of the transformer, and the secondary side is turned on. Although not shown, the connection structure of the switching element and its operation in the flyback type DC-DC converter will be apparent to those skilled in the art.)

In the above, the output power through each transformer (T1, T2, T3, T4) is each PWM IC installed for feedback control between each output terminal (V01, V02, V03, V04) and the switching device (not shown, MOSFET) By controlling the feedback individually, it is possible to stabilize the output voltage at each output terminal (V01, V02, V03, V04). (Like the switching element, the specific operation structure of the PWM control means is not shown. However, the connection structure of the PWM IC in the flyback DC-DC converter and its operation will be obvious to those skilled in the art.)

As described above, in the present invention, the load fluctuation in one output power source V01 or V02 or V03 or V04 does not affect the other power source through the individual PWM feedback control for each output power source. To provide safety.

In interpreting the technical scope of the present invention, it should not be construed as being limited to the embodiments described above, but the technical scope of the present invention should be determined by reasonable interpretation of the matters described in the claims.

According to the power supply device for stabilizing the output power of the present invention, the load fluctuation at any one output power does not affect the other output power through the individual PWM feedback control for each output power, so that each output power separately This has the effect of giving safety.

Claims (3)

In the flyback converter type power supply (SMPS) for stabilizing the output power in the PCU of the vehicle 42V system, An input terminal to which an input voltage Vin is applied; At least one transformer connected to the input terminal and having a primary side having a predetermined number of turns and a secondary side having a predetermined number of turns; A switching element connected to the other end of the primary side to which the input terminal of each transformer is connected, for switching control of an input voltage to each transformer; An output stage for outputting a voltage through each transformer according to an operation state of each switching element; And Is connected between the output terminal and the switching element of each transformer, the power supply for stabilizing the output power, characterized in that consisting of PWM control means for feedback control of the output power through each transformer. The method of claim 1, A diode connected to the secondary side of each transformer and connected to or disconnected according to an operating state of a switching element, and connected to each diode in parallel to serve as an output filter in outputting energy accumulated by magnetization inductance of each transformer. Power supply for stabilizing the output power, characterized in that it further comprises a capacitor. The method of claim 1, Is connected to the secondary side of each transformer power supply for stabilizing the output power, characterized in that it does not have a separate regulator for stabilizing the output power.

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